KR101389976B1 - Apparatus and method for hang up management of mobile terminal - Google Patents

Abstract

 The present invention encompasses an apparatus and method for managing a line phenomenon of a mobile terminal that can receive a specific user input signal from a user through an input device operating as a chip separate from the AP, and independently detect and solve the line phenomenon of the AP. The apparatus for managing a line phenomenon of a mobile terminal according to the present invention includes a user input processor for detecting a user input signal from a user and generating and transmitting a notification signal, and a control unit for monitoring whether or not the application processor processes a user input signal And a row development processing unit for controlling the application processor to reboot when the application processor can not process the user input signal. Accordingly, the occurrence of a mobile terminal can be effectively detected, and the application processor can be automatically rebooted to solve the problem of a mobile terminal.

Description

[0001] APPARATUS AND METHOD FOR MANAGEMENT OF MOBILE TERMINAL [0002]

The present invention relates to an apparatus and method for detecting and solving a system phenomenon occurring in a mobile terminal.

Sometimes, while running an application using a mobile device, it stops working and does not respond. This phenomenon is called a system hang phenomenon. System behavior refers to a phenomenon in which processing of input and output is stopped due to software or hardware problems in the system while the mobile device is operating.

This phenomenon can be roughly divided into two situations. One is that the system does not operate normally due to a problem with the main parts of the system (such as CPU, kernel, etc.), and the other is that only the input / output processing device does not operate normally. However, in both cases, the terminal user judges that the system has been stopped.

Recently, as the performance and functional requirements of terminals have increased, complicated hardware structures and software have been used, which has resulted in lower system stability. Accordingly, a central processing unit (CPU) or an application processor (hereinafter, referred to as an AP) of a mobile terminal has become a frequent problem.

1 is a flowchart of a general monitoring apparatus for detecting and solving the occurrence of an AP phenomenon.

Referring to FIG. 1, a general watchdog (hereinafter, referred to as a watchdog) for detecting and solving a row phenomenon generally operates in conjunction with a hardware timer for detecting and solving a row phenomenon. The watchdog first sets the watch target and initializes the watchdog timer (101). The watchdog waits for a response from the watchdog, and the watchdog timer time decreases while the watchdog waits for a signal from the watchdog. If the watch signal is received (105, 106) from the monitored object before the preset time has elapsed in the watchdog timer, the watchdog reinitializes the watchdog timer. If the watchdog can not receive a report signal and the watchdog timer has consumed a predetermined amount of time in advance (102), the watchdog determines that a line phenomenon has occurred in the watchdog, and an interrupt occurs (103) An operation 104 is performed. Generally, a system reset or a system rebooting is performed in order to solve a row phenomenon.

However, watchdogs may not be able to detect if the object they are monitoring is functionally malfunctioning. In general, a watchdog detects when a target to be monitored can not execute because it can not occupy the CPU. A watch that does not occupy the CPU will not be able to send a report signal that can initialize the watchdog timer. Therefore, even if the watchdog functionally malfunctions, watchdog interrupts do not occur because it can send a report signal when the CPU is occupied and running. For example, even if an OS kernel module or a task that simply handles a user interface malfunctions, the monitored object may still be occupied by the CPU. In this case, the watchdog normally transmits the report signal to the watchdog. However, since the user interface does not work, it is judged that the system is actually running.

Also, since the watchdog itself is also software that runs on the AP, it does not detect the phenomenon when the watchdog itself becomes a problem. For example, if an AP enters a sleep state and disables the watchdog, it will not detect or take action.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for receiving a user input signal from a user through an input device operating as a separate chip from an AP, And to provide an apparatus and method for managing a line phenomenon of a mobile terminal.

 The apparatus for managing a line phenomenon of a mobile terminal according to the present invention includes a user input processor for detecting an input from a user and generating and transmitting a user input signal including information on a notification signal and an input from a user, And a row development processing unit that monitors whether or not the application processor processes the user input signal and controls the application processor to reboot when the application processor can not process the user input signal.

 The row processing unit monitors the application processor according to the received notification signal, and generates a request for re-execution of the application processor when the application processor does not process the user input signal, And a power management controller for generating and transmitting an application processor reboot command for controlling power supplied to the application.

 In addition, when the storage unit for receiving and storing the user input signal from the user input processing unit and transmitting the stored user input signal at the request of the application processor and the application processor requesting the user input signal, To the application processor, and generates and transmits an application processor operation signal including the result of the application processing the user input signal to the row phenomenon detection unit.

 A method for managing a phenomenon of a mobile terminal according to the present invention first receives a user input signal from a user and transmits a user input signal reception result to an application processor. And monitors whether the application processor normally processes the user input signal. If the application processor does not normally process the user input signal, it transmits an application reboot command to reboot the application processor.

 By applying the apparatus and method for managing a line phenomenon of a mobile terminal according to the present invention, it is possible to effectively detect a line phenomenon occurring in the mobile terminal, and automatically rewrite the application processor, thereby solving the problem of the mobile terminal. Also, because it operates with the hardware independent of the application processor of the mobile terminal, it can detect the behavior even when the application processor malfunctions, unlike the watchdog monitor, which can cause malfunction if the application processor of the mobile terminal malfunctions .

1 is a flowchart of a general monitoring apparatus for detecting and solving the occurrence of an AP phenomenon.
FIG. 2 is a configuration diagram of an embodiment of a line phenomenon management apparatus of a mobile terminal according to the present invention.
3 is a configuration diagram of an example of a row development processing unit according to an embodiment of the present invention.
FIG. 4 is a flowchart of an embodiment of an apparatus for managing the phenomenon of a mobile terminal according to the present invention.
5 is a configuration diagram of another example of an apparatus for managing a line phenomenon of a mobile terminal according to an embodiment of the present invention.
6 is a block diagram of another example of a device for managing a line phenomenon of a mobile terminal according to an embodiment of the present invention.
FIG. 7 is a flowchart of a method for managing a phenomenon of a mobile terminal according to an exemplary embodiment of the present invention.
8 is a flowchart of a method of processing a user input signal according to an embodiment of the present invention.
FIG. 9 is a flowchart of a line art detection method according to an embodiment of the present invention.
10 is a flowchart of another embodiment of a line art detection method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used in the present specification are terms selected in consideration of the functions and effects in the embodiments, and the meaning of the terms may vary depending on the intention of the user or the operator or industry custom. Therefore, the meaning of the term used in the following embodiments is based on the defined definition when specifically stated in this specification, and unless otherwise stated, it should be interpreted in a sense generally recognized by those skilled in the art.

 FIG. 2 is a configuration diagram of an embodiment of a line phenomenon management apparatus of a mobile terminal according to the present invention.

 Referring to FIG. 2, an apparatus 100 for managing a line phenomenon of a mobile terminal according to the present invention includes a user input processing unit 110 and a line development processing unit 130.

 The user input processing unit 110 receives various inputs from a user using the mobile terminal. The user input received from the user is stored in the user input processing unit 110 and the user input processing unit 110 transmits the user input reception result to the row processing unit 130 and the AP 170. The device for managing the line phenomenon of the mobile terminal according to the present invention detects the line phenomenon of the AP through the input from the user and whether the AP normally processes the user input stored in the user input processing unit 110. [ Accordingly, it is possible to inform the row processing unit 130 and the AP 170 of the user input reception to all the user inputs inputted to the user input processing unit 110. [

  The AP 170 accesses the user input processing unit 110 and processes user input. However, when a row phenomenon occurs in the AP, the AP does not properly process the user input stored in the user input processing unit 110. [

 When the AP 170 is busy, devices directly connected to the AP 170 or directly or indirectly controlled by the AP may not operate or malfunction. Therefore, the input device used when the AP phenomenon occurs should be directly controlled by the AP 170 and not operate. Thus, the user input signal is input through an input device that operates without being directly controlled from the AP 170 of the mobile terminal. Accordingly, a user input signal can be normally received even if a problem occurs in the AP 170 of the mobile terminal.

 An input device for receiving an input signal from a user may include, for example, a touch screen, a voice sensor, a motion recognition sensor, and a hard key of a button structure. The touch screen refers to a touch screen that is generally used in a smart phone or the like in such a manner that the touch screen is input through a method of touching the display screen. The voice sensor is a sensor device for recognizing the voice of a user, and the user can input desired contents to the mobile terminal through voice or control the mobile terminal through voice commands.

 There are two major types of motion recognition sensors. The first is a sensor capable of measuring the movement of the mobile terminal itself having the motion recognition sensor, and may include a gyro sensor. The second is a sensor that detects movement within the detection range of the motion recognition sensor. For example, the motion recognition sensor may be used to shake hands on the mobile device to turn off the phone or turn off the phone. The hard key of the button structure is a physical button located outside the mobile terminal, and may include, for example, a home button or a volume button of a smart phone.

  When a row phenomenon occurs in the AP 170 of the mobile terminal, the AP line phenomenon can be detected and solved using the touch signal input through the touch screen of the smart phone or the tablet PC. The touch signal of the touch screen may include an arbitrary touch signal, a touch signal at a specific position (coordinate), a touch signal having a specific movement, or the like.

 When a user input signal is received using a voice sensor, the AP line phenomenon can be detected through a voice signal input from the user. When receiving the user input signal by using the motion recognition sensor, the AP movement phenomenon can be detected and solved by using the input motion signal by recognizing the predetermined hand motion or motion of the user.

 The input device for receiving the above-described user input signal is not limited to the above description, and may include all input devices that are not directly or indirectly controlled by the AP 170 of the mobile terminal . That is, an input device which is not directly or indirectly controlled from the AP 170 such as a touch screen or a voice sensor provided in a mobile terminal such as a smart phone at present can be used.

 The user input processing unit 110 generates a notification signal based on the input received through the input device. When the user input signal is transmitted from the user, the user input processing unit 110 generates a notification signal for informing the row processing unit 130 of the fact that the user input signal is received. The generated notification signal is transmitted to the row development processing unit 130.

 The user input processing unit 110 may generate a user input signal based on the input signal received through the input device. Generates a user input signal that can be processed or recognized by the AP 170 from the user input received via the input device and that includes information of the user input. For example, when the touch input signal is received through the touch input device, the information of the user input is information recognized according to the type of the input device. Coordinate information can be generated. Further, when the user's voice is received through the voice input device, voice information is generated from the voice input signal. When the user operation signal is received through the motion recognition apparatus, operation information is generated from the user operation signal.

 The user input signal generated by the user input processing unit 110 may be used as data for detecting a row phenomenon in the AP 170 of the mobile terminal. The user input signal may be generated separately for the detection of a row phenomenon and may be generated and transmitted in the same process as an input signal transmitted to the AP 170 in a general touch input or voice input. The user input processing unit 110 may include an input device for receiving a user input signal, and may receive a user input signal from a conventional input device.

 In other words, in general, data is transmitted to the AP 170 in the same manner as a process of inputting a touch signal through a touch screen, so that the user input processing unit 110 does not need an additional device or configuration The conventional input device can be used as it is.

 The row development processing unit 130 confirms that the user input signal is received through the notification signal transmitted from the user input processing unit 110. [ The device for managing the line phenomenon of the mobile terminal according to the present invention detects the line phenomenon of the AP 170 through whether the AP 170 normally processes the user input inputted from the user and stored in the user input processing unit 110. [ Therefore, the row development processing unit 130 monitors the user input processing unit when the notification signal is transmitted from the user input processing unit 110.

 The row development processing unit 130 monitors whether the AP 170 of the mobile terminal processes the received user input signal. The AP 170 recognizing the reception of the user input signal takes an operation for processing the user input signal. If the current AP 170 is operating normally, the AP 170 may process the user input signal without any problem. However, if the AP 170 is not operating normally or is in a stopped state, the AP 170 can not normally process the user input signal. Therefore, it can be confirmed whether the AP 170 is operating normally by checking whether the AP 170 processes the user input signal normally.

 If the AP 170 does not normally process the received user input signal, the row development processing unit 130 determines that a row phenomenon has occurred in the AP 170 and performs an operation for solving the AP row phenomenon. As a method for solving the AP phenomenon, the row development processing unit 130 transmits an AP rebooting command or a reset command to the power management unit 150. [ The power management unit 150 receiving the AP rebooting command from the row development processing unit 130 resets the AP row phenomenon by rebooting the AP 170. [ A detailed description of the row status management unit 130 will be given later with reference to FIG. 3, FIG. 4, and FIG.

 The power management unit 150 controls the power supplied to the AP 170 according to the AP reboot command transmitted from the row development processing unit 130 to reboot the AP.

 The power management unit 150 is a device for controlling the power of the mobile terminal. A PMIC (Power Management IC) is a representative example. PMIC is mainly used to increase battery run time in mobile terminals or battery operated equipment. The main function of the PMIC is to deliver the interface signal to the PMIC in accordance with the load to be processed by the CPU (or AP), so that the PMIC adjusts the core voltage supplied to the CPU (AP) So that it can be driven with a minimum power.

 3 is a detailed view of an apparatus for managing a line phenomenon of a mobile terminal according to an embodiment of the present invention.

 Referring to FIG. 3, the user input processing unit 110 according to an embodiment of the present invention includes a user input sensing unit 111 and a storage unit 112. The row development processing unit 130 includes a row development sensing unit 131 and a power management control unit 132.

 When a new user input is received from the user, the user input detecting unit 111 generates a notification signal for notifying the user input reception fact and delivers the notification signal to the row detection unit 131 and the AP 170. A user input signal including the received user input is generated and stored in the storage unit 112.

 The storage unit 112 stores the user input signal received from the user input sensing unit 111 and transmits the stored user input signal when the AP 170 requests the user input signal.

 When a notification signal is received from the user input processing unit 110, the row detection unit 131 monitors the storage unit 112 located in the user input processing unit 110 to confirm the AP line phenomenon. The storage unit 112 stores a user input signal received through an input device. The storage unit 112 generally stores a signal input to the mobile terminal through the input device to transmit the signal to the AP 170.

 The user input processor 110 receives an input signal from a user and generates a user input signal including an input signal and stores the input signal in the storage unit 112. An interrupt (or notification signal) (170). If the AP 170 is operating normally, the AP 170 accesses the storage unit 112 and reads the stored user input signal. However, if the AP 170 fails to operate normally due to a row phenomenon, the AP 170 can not access the storage unit 112 and read the stored user input signal.

 The row phenomenon detection unit 131 monitors the storage unit 112 and checks whether the AP 170 normally accesses the storage unit 112 to read the stored user input signal signal. If the AP 170 fails to read the stored user input signal, the row detection unit 131 determines that an AP line phenomenon has occurred, and transmits a request for rebooting the AP to the power management controller 132.

 Upon receiving the request for rebooting the AP from the row detecting unit 131, the power management controller 132 transmits an AP reboot command to the power management unit 150, which controls the power of the mobile terminal, and reboots the AP 170. [

 FIG. 4 is a flowchart of an apparatus for managing a line phenomenon of a mobile terminal according to an exemplary embodiment of the present invention.

 Referring to FIG. 4, in the method of managing row phenomenon of a mobile terminal according to an embodiment of the present invention, a user input sensing unit receives a new user input from a user (401). The received user input may be received via various input devices such as a touch input device, a voice input device, and a motion recognition device. The received user input is transmitted to the storage unit 402. The user input detection unit notifies the row detection unit 403 of the fact that the user input is received and informs the AP of the mobile terminal that the user input is received (404).

 Next, the row detection unit receiving the user input reception status monitors the storage unit (405). The row phenomenon detection unit monitors the storage unit to confirm whether the AP accesses the storage unit and normally processes the stored user input. If the AP does not normally process the user input stored in the storage unit, the row detection unit determines that a row phenomenon occurs in the AP, and requests the power management controller to request an AP reboot (406). Upon receipt of the AP reboot request, the power management controller transmits an AP reboot command to the power management unit for controlling the power of the entire mobile terminal (407). The power management unit reboots the AP based on the received AP reboot command (408).

 5 is a block diagram of another example of an apparatus for managing a line phenomenon of a mobile terminal according to the present invention.

 5, the user input processing unit 110 includes a user input sensing unit 111 and a storage unit 112. Another example of the row development processing unit 130 includes a row development sensing unit 131, A control unit 132 and a communication unit 134. [

 When a new user input is received, the user input detecting unit 111 generates a notification signal for notifying the user of the received user input and transmits the notification signal to the row detection unit. The user input detection unit 111 stores the user input signal including the received user input, .

 The storage unit 112 stores the user input signal received from the user input sensing unit 111. Upon receiving the user input signal request from the AP 170, the AP 170 transmits the stored user input signal to the AP 170. When the AP 170 receives the user input signal normally, it transmits an AP operation signal including the fact that the AP operates normally to the communication unit 134.

 The row detection unit 131 monitors the AP line phenomenon through the notification signal received from the user input processing unit 110 and transmits the received notification signal to the AP 170 through the communication unit 134. [ The AP 170 receiving the notification signal accesses the storage unit 112 and reads the stored user input signal. When the AP 170 reads a user input signal from the storage unit 112, the AP operation signal is transmitted to the row detection unit 131 through the communication unit 134.

 If the row detecting unit 131 does not receive the AP operation signal from the communication unit 134, the row detecting unit 131 determines that a row phenomenon has occurred in the AP and requests the power management controller 132 to reboot the AP .

 The power management controller 132 receives an AP reboot request from the row development detector 131 and transmits an AP reboot command for controlling the power manager 150 based on the received AP reboot request to the power manager 150 do. Upon receipt of the AP reboot command from the power management controller 132, the power management unit 150 reboots the AP 170 to resolve the AP line phenomenon.

 The communication unit 134 connects communication between the row development unit 131, the AP 170, and the storage unit 112. The communication unit 134 transmits the notification signal received from the row detection unit 131 to the AP 170. When the AP 170 reads the user input signal from the storage unit 112, the AP 170 receives the AP operation signal from the storage unit 112 and transmits the AP operation signal to the row detection unit 131.

 The communication unit 134 may be generally configured by interprocessor communication (IPC). IPC is a communication mechanism between processes. It uses a method of sharing some variables between processes communicating with each other and exchanging information using these shared variables, or it is the responsibility of the operating system to exchange information Use the method to make it possible.

 5 includes the communication unit 134. The row detection unit 131 detects the fact that the user input signal is transmitted from the user input processing unit 110 to the AP 170 And can confirm whether the AP 170 normally operates and processes the received user input signal through the AP operation signal received from the storage unit 112 through the communication unit 134. [

 6 is a block diagram of another example of a device for managing a line phenomenon of a mobile terminal according to an embodiment of the present invention.

 6, another example of the row development processing unit 130 according to an embodiment of the present invention includes a row development detection unit 131, a power management control unit 132, a storage unit 112, and a communication unit 134, .

 The row phenomenon detection unit 131 receives the notification signal from the user input processing unit 110 and prepares to detect the AP phenomenon. If the AP 170 does not receive the AP operation signal indicating that the user input signal has been normally processed from the storage unit 112, the AP 170 determines that the AP 170 has occurred and requests the power management controller 132 to reboot the AP .

 The power management controller 132 receives an AP reboot request from the row development detector 131 and transmits an AP reboot command for controlling the power manager 150 based on the received AP reboot request to the power manager 150 do. Upon receipt of the AP reboot command from the power management controller 132, the power management unit 150 reboots the AP 170 to resolve the AP line phenomenon.

 The communication unit 134 connects communication between the row development unit 131, the AP 170, and the storage unit 112. The communication unit 134 transmits the notification signal received from the row detection unit 131 to the AP 170. When the AP 170 reads the user input signal from the storage unit 112, the AP 170 receives the AP operation signal from the storage unit 112 and transmits the AP operation signal to the row detection unit 131.

 The storage unit 112 is located in the row development processing unit 130, not in the user input processing unit 110, and receives and stores a user input signal signal from the user input processing unit 110. The user input signal is generated based on the user input signal in the user input processing unit 110. The storage unit 112 transmits the user input signal to the AP 170 via the communication unit 134. When the AP 170 accesses the storage unit 112 through the communication unit 134 and requests a stored user input signal signal, the AP 170 transmits the stored user input signal signal.

 FIG. 7 is a flowchart of a method for managing a phenomenon of a mobile terminal according to an exemplary embodiment of the present invention.

 Referring to FIG. 7, in the method of managing a phenomenon of a mobile terminal according to an exemplary embodiment of the present invention, an input is first sensed by a user (701). When a row phenomenon occurs in the AP of the mobile terminal, the input device controlled by the AP may not operate or may malfunction. Therefore, when an AP occurs, an input device for receiving a signal from a user must be a device that is not directly or indirectly controlled by an AP of the mobile terminal. The input device may include any input device not controlled by the AP of the mobile terminal, and may include, for example, a touch screen of a mobile terminal, a voice input device, and a motion recognition device.

 Next, a notification signal and a user input signal are generated and transmitted based on the input from the user (702). Generates a notification signal and a user input signal based on the input received from the user, and stores the generated user input signal information. Then, it informs the AP of the reception of the user input signal for AP row detection. A detailed description of the user input signal processing method will be described later with reference to FIG.

 Next, the AP monitors whether the user input signal is normally processed (703). It is possible to monitor whether or not the received user input signal is normally processed by the AP to check whether or not the AP line phenomenon has occurred. Then, it is determined whether a row phenomenon occurs in the AP (704). If the AP is operating normally, the AP receiving the user input signal information accesses the stored user input signal information and processes the stored user input signal. If the AP processes a normally received user input signal, it determines that the AP is in normal operation and then waits for a new user input signal. A method of monitoring the operation of the AP to confirm whether or not a row phenomenon has occurred will be described later in detail with reference to FIG.

 If an AP line phenomenon occurs, an AP rebooting command is transmitted (705). If the AP does not normally process the received user input signal, it is determined that a row phenomenon has occurred in the AP, and an AP rebooting command is transmitted to solve the problem of the AP. And controls the power supplied to the AP through the AP reboot command to reboot the AP.

 8 is a flowchart of a method of processing a user input signal according to an embodiment of the present invention.

 Referring to FIG. 8, a method for processing a user input signal according to an embodiment of the present invention detects an input from a user through an input device (801). And detects input from the user through various input devices. Then, a notification signal and a user input signal are generated based on the input sensed by the user (802). And generates a notification signal for communicating the reception of the user input signal based on the input sensed by the user. The generated notification signal is transmitted to the row detection unit to inform the row detection unit that the row detection process according to the reception of the user input signal is started. The notification signal for conveying the fact of receiving the user input signal may be generated based on the user input signal or may be used as a notification signal by the user input signal itself. Then, the generated user input signal is stored (803). The user input signal may be stored in a storage unit included in the event management apparatus according to the present invention or stored in a storage device for communicating a signal input to the mobile terminal not included in the event management apparatus to the AP.

 And transmits a new user input signal reception result (804). To the row detection unit for detecting the AP line phenomenon. The fact that the user input signal is received may be transmitted through a notification signal generated based on the user input signal or may be directly transmitted to the row detection unit and informed of the received user input signal.

 Then, an AP interrupt is generated (805). And generates an AP interrupt for causing the AP to process the received user input signal. The AP interrupt may be generated according to a signal transmitted from a storage unit in which a user input signal is stored, or may be generated according to a notification signal transmitted from the row detection unit. By the AP interrupt, the AP recognizes that the user input signal has been received and reads the user input signal stored in the storage unit.

 FIG. 9 is a flowchart of a line art detection method according to an embodiment of the present invention.

 Referring to FIG. 9, in the method of detecting a different row in the first embodiment of the present invention, a notification signal is received and a row detection is started (901). The row detection unit receiving the notification signal monitors whether the AP processes the stored user input signal (902). In order to monitor whether the AP operates normally and processes a user input signal, the row detection unit can use two methods. One method is to check whether the AP normally processes the user input signal of the storage unit by monitoring the user input signal stored in the storage unit. Another method is to monitor the communication unit connecting the storage unit and the AP There is a method of confirming whether or not the AP normally processes the user input signal.

 Next, it is determined whether the AP reads the user input signal normally (903). Whether the AP line phenomenon occurs or not is determined by monitoring the storage unit directly or checking whether the AP reads the user input signal normally through the communication unit. If the AP normally processes the user input signal, it is determined that no AP line phenomenon has occurred and a new user input signal is waited for. However, if the AP does not properly process the user input signal, it is determined that the AP has a line phenomenon.

 And transmits an AP reboot command (904). If the AP does not normally process the user input signal, it determines that the AP has occurred and transmits an AP reboot command to the power management unit. The power management unit controls the power supplied to the AP based on the received AP reboot command to reboot the AP.

 10 is a flowchart of another embodiment of a line art detection method according to an embodiment of the present invention.

 10, in another embodiment of the row detection method according to an embodiment of the present invention, first, in the same manner as steps 901 and 902 of FIG. 9, a notification signal is received to start row detection 1001) monitors whether the AP processes the stored user input signal (1002). It is possible to monitor whether the AP reads the user input signal stored in the storage unit or to check whether the AP reads the user input signal normally through the communication unit.

 Next, it is determined whether the AP reads the user input signal normally (1003). If the AP normally processes the user input signal, it is determined that no AP line phenomenon has occurred and the AP waits for a new user input signal. However, if the AP does not normally process the user input signal, it is determined that a line phenomenon occurs in the AP.

 If it is determined that a row phenomenon occurs in the AP, it is determined whether the determination is the first judgment (1004). If the AP does not normally read the user input signal, it is determined that a row phenomenon has occurred in the AP. However, there may be situations where the AP is temporarily unable to process user input signals due to internal communication problems, power supply problems, and application errors. Alternatively, the AP may temporarily run and may return to a normal state after a predetermined period of time. Therefore, if the AP reboots every time the AP does not process the user input signal directly, it may cause inconvenience to the user. In order to prevent such a problem, if the result of the determination of the AP line phenomenon is the first judgment, it is preferable that the AP rebooting command is not transmitted, and the re-verification process is performed.

 If the determination of the AP line phenomenon is the first judgment, the AP waits for a predetermined time and monitors again whether the AP processes the stored user input signal (1005). In the case where the AP line phenomenon is the first judgment, the AP rebooting command is not directly transmitted but re-confirmed. The reconfirmation process waits for a preset predetermined time, and then returns to step 902 to monitor whether the AP processes the stored user input signal.

 If the AP line phenomenon determination is not the first judgment, the AP rebooting command is transmitted (1006). If the AP line phenomenon determination is not the first determination, the AP line phenomenon is finally determined and the AP rebooting command is transmitted to the power management unit.

The predetermined waiting time for reconfirming the AP line phenomenon may vary depending on the setting. Also, the number of reconfirmations is not limited to one, but may be changed to two or more times depending on the setting and the situation with the mobile terminal.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible.

100: type development management device
110: User input processor
111: User input sensing unit
112:
130: Row development processor
131:
132: Power management controller
134:
150:
170: AP

Claims (18)

1. An apparatus for managing a phenomenon of a mobile terminal including an application processor (AP)
A user input processor for outputting a user input signal including a notification signal for informing the input and information about the input when an input from the user is detected; And
A row development processing unit for monitoring whether the application processor processes the user input signal when the notification signal is received from the user input processing unit;
Lt; / RTI >
Wherein the row development processing unit controls the mobile terminal to boot the mobile terminal when it is detected that the application processor can not process the user input signal based on the monitoring result. The method according to claim 1,
Wherein the row development processing unit controls the application processor to boot the application processor if the application processor can not process the user input signal. The method according to claim 1,
Wherein the row development processing unit comprises:
A row event detection unit for monitoring an operation of the application processor according to the received notification signal and generating and transmitting an application processor boot request signal when the application processor can not process the user input signal; And
A power management controller for generating and transmitting an application processor boot command signal for controlling power supplied to the application based on the received application processor boot request signal;
Wherein the mobile terminal further comprises: The method according to claim 1,
A storage unit for storing the received user input signal and delivering the stored user input signal at the request of the application processor;
Wherein the mobile terminal further comprises: 5. The method of claim 4,
The user input processing unit,
Generates a notification signal indicating that the input has been made based on the input received from the user, and transmits the generated notification signal to the row development processing unit and the AP, generates the user input signal based on the received user input, A user input sensing unit;
Wherein the mobile terminal is a mobile terminal. 5. The method of claim 4,
When the application processor requests the user input signal, transmits the user input signal stored in the storage unit to the application processor, generates an operation signal that the application processes the user input signal, and transmits the operation signal to the row phenomenon detection unit ;
Wherein the mobile terminal further comprises: The method according to claim 6,
Wherein the row development processing unit comprises:
A row phenomenon detection unit for generating and transmitting an application processor boot request signal when the application processor does not receive the operation signal for processing the input signal; And
A power management controller for generating and transmitting an application processor boot command for controlling power supplied to the application based on the received application processor boot request signal;
Wherein the mobile terminal is a mobile terminal. The method according to claim 1,
Wherein the input information includes at least one of touch coordinate information recognized from the input, recognized voice information, recognized operation information, and recognized button input information. The method according to claim 1,
The user input processing unit,
A touch input device, a voice input device, a motion recognition device, a gyro sensor, and a hard key input device of the mobile terminal. The method according to claim 1,
The user input processing unit,
Wherein the mobile terminal is operated without being directly or indirectly controlled by the application processor. The method according to claim 1,
Wherein the notification signal can use the user input signal as it is. The method according to claim 1,
Wherein the user input signal comprises:
A touch input, a voice input, and an operation input. 1. A method for managing a phenomenon of a mobile terminal including an application processor (AP)
Generating and transmitting a notification signal indicating that the input is made and a user input signal including the input information when an input from the user is detected;
Monitoring whether the application processor processes the user input signal when the notification signal is received;
Monitoring whether the application processor normally processes the user input signal; And
If the application processor detects that the user input signal has not been normally processed based on the monitoring result, transmitting an application boot command;
The method of claim 1, 14. The method of claim 13,
Generating and transmitting a notification signal indicating that the input is made and a user input signal including the input information when the input from the user is detected,
Storing the received user input signal;
Generating a notification signal based on the received user input signal; And
Transmitting the generated notification signal to the application processor;
The method comprising the steps of: receiving a request from a mobile terminal; 14. The method of claim 13,
Generating and transmitting a notification signal indicating that the input is made and a user input signal including the input information when the input from the user is detected,
Storing the received user input signal; And
Generating an interrupt to process the user input signal to the application processor based on the stored user input signal;
The method comprising the steps of: receiving a request from a mobile terminal; 14. The method of claim 13,
Wherein the step of monitoring whether the application processor normally processes the user input signal comprises:
Confirming whether the application processor reads the user input signal; And
Determining that a row phenomenon has occurred in the application processor if the application processor fails to read the user input signal;
The method comprising the steps of: receiving a request from a mobile terminal; 14. The method of claim 13,
Wherein the step of monitoring whether the application processor normally processes the user input signal comprises:
Confirming whether the application processor reads the user input signal;
If the application processor fails to read the user input signal, waiting for a predetermined time and then re-confirming whether the application processor reads the user input signal; And
Determining that a row phenomenon has occurred in the application if the application processor fails to read the user input signal as a result of the re-checking;
The method comprising the steps of: receiving a request from a mobile terminal; 14. The method of claim 13,
Wherein the user input signal comprises:
A touch input, a voice input, and an operation input.

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